Electrical engineering, electronic power, automation

From 17.14 € /h

Electrical engineering
Electronic
power Electronic
motor drive
electrical circuit
renewable energy
automation
electrical drive
industriel control
transformer
electrical energy
hight voltage
low volatge
simulation
calculation
etc

Extra information

Bachlor level
BAC+2
Licence
Master

Location

Use Ctrl + wheel to zoom!

At student's location :

Around Casablanca, Morocco

Age

Teenagers (13-17 years old)

Adults (18-64 years old)

Student level

Beginner

Intermediate

Advanced

Duration

90 minutes

120 minutes

The class is taught in

English

French

Skills

Electrical engineering

Electronic circuits

Industrial engineering

Availability of a typical week

(GMT -05:00)

New York

At student's home

Mon

Tue

Wed

Thu

Fri

Sat

Sun

00-04

04-08

08-12

12-16

16-20

20-24

Sabir

5.0

(1)

Course in Electronics: Microcontroller (PIC, atmega ..), Electronic circuit, Power electronics
Automation course: GRAFCET, LADDER, Bascule, Combinatorial logic
Electric motor: Asynchronous machine, DC motor, synchronous machine

Ayoub

5.0

(1)

Hello everyone. My name is Ayoub, a professor of industrial sciences, with more than 6 years of experience in academic support.

I offer private engineering science lessons at home in Kenitra, Rabat and Casablanca or remotely for pupils and students:
• Who has basic difficulties or deficiencies...
• Who want to strengthen the base and get used to the techniques seen throughout the course and which are always useful to know and master.
• Who wish to review the essentials of the previous year's program and get ahead of the program.

These courses are intended for CP-BTS and high school students and are personalized for each student according to their level, ability and motivation, guaranteeing the best marks in the national exam.

Methodology

The course takes place in three stages:
1) Summary and explanation of the course or chapter to work on then target the essentials of the course.
2) Do simple exercises to put the course into practice and apply an effective method of solving and writing exercises.
3) In a third step I give exercises with increasing difficulty that the student will do on his own to test him and put him in a condition to manage independently. We correct this list of exercises together and the unsuccessful exercises are to be redone by the student for the next session.

Abdallah

5.0

(1)

By being an engineer who has experienced all the possibilities of stress that a student can encounter when understanding it, a teacher who has encumbered an experience for years, I have developed teaching and efficient methods in order to better explain to my students.
For me, a student needs a logical explanation of things and a personalized follow-up in order to be able to better advance and develop their own skills.

Distance courses:
-----------------------------------
I can give distance lessons perfectly since I have a tablet on which I can work in the same way as if it were a notebook. The student can see everything I do live through screen sharing, and all they need is to use a computer. At the end of the course, I send him a copy of all the work done, which allows me to make sure that he has kept a clean record of the course spent together.

Domains :
-------------------------------------------------- ------------------

* Analog electronic:
-------------------------------------------
- Semiconductor and PNP Junction
- Diodes and transistors
- Bipolar transistors and JFET (Static and dynamic analysis)
- Operational amplifier in linear and non-linear mode
- Frequency analysis (Bode, Nichols, Nyquist diagram ...)
- Analog filtering
- Analog Oscillator
- Converters: CAN and CNA
- Modulation
- Differential amplifier
- ...

* Electrical engineering:
--------------------------------
- Single-phase network
- Three-phase network
- Coil and magnetic circuit
- Single-phase and three-phase transformers
- Direct current machine (MCC)
- Asynchronous Machine (MAS)
- Synchronous Machine (MS)
- Speed variators
-....

* Power electronics:
----------------------------------------------
- Choppers
- Rectifiers
- Inverters
- Dimmers
- Speed variator
-....

* Digital Electronics:
-------------------------------------------
- Boolean algebra
- Combinatorial systems
- Sequential systems
- Counters and decounters
- Registers and memories
- ....

* Industrial Automation:
----------------------------------------
- Grafcet and GEMMA
- State graph / state diagram
- Programmable controllers (Siemens, Schnieder ...)
- Programmable circuits (Microcontrollers, arduino ...)
-....

* Linear automatic - Servo-control and regulation:
-------------------------------------------------- -----------------------------------
- Laplace transformation
- Transfer function
- Functional diagrams
- Dynamic performance of linear systems: Speed, Precision and Stability
- The correctors: P, PI, PID, phase advance, phase delay, ...
- Regulation and servoing
- Digital servo
-....

-------------------------------------------------- ---------------
Additional Information
Zoom or Google meet
Whiteboard

Anyway, I'll be there to help you move forward and love this area more.
Are you ready to experience this learning adventure with me?

Samir

5.0

(1)

In addition to my experience in electrical engineering which exceeds seven years, whether in the industrial field and in the management of electrical networks, I am a laureate of the MP preparatory class, and I am passionate about mathematics and physics.

So I am available and at your disposal for relevant and quality individualized training.

I am available for lessons at home and at a distance and or in a café (consumption at my expense!!).

Students have the choice between sessions of 1h30mn or 2 hours.

I offer two sciences per week.

Subjects and level of training:
**Maths for college, bac and bac+2 levels
**Physics for college and baccalaureate level
**Electrical engineering for all levels

thank you

Zakaria

5.0

(1)

At the end of this training, you will be able to:

• Understanding solar photovoltaic
• Assess the solar potential
• Know the key technologies
• Dimension photovoltaic projects
• Identify the technical vigilance points of a photovoltaic solar installation
• Know the operating parameters and the associated players
• Analyze the profitability of a project

Youness

5.0

(1)

I am an associate professor of electrical engineering, I offer courses in everything related to the electrical engineering discipline:
CPGE / BTS / DUT / IUT / DTS / UNIVERSITY / Technical high school
ELECTRIC MACHINE
SYNCHRONOUS MACHINE
ASYNCHRONOUS MACHINE
DIRECT CURRENT MACHINE
STEP-BY-STEP ENGINE

POWER ELECTRONICS
INVERTERS AND MULTI-LEVEL INVERTERS
CONTROLS: MLI / OFFSET / SYSMETRIC / 120° and 180°
RECTIFIER
CHOPPER
DIMERS

NONLINEAR CONTROLS
BACKSTEPPING
SLIDING MODE

Khalil

5.0

(1)

Electrical engineering courses provide an in-depth understanding of concepts and applications related to electricity, electronics, and power systems. Here is a general description of typical courses that one may encounter during an electrical engineering program:

Electrical Circuits: This course is often the starting point and covers the basics of electrical circuits, including Kirchhoff's laws, direct current (DC) and alternating current (AC) circuit analysis, and the use calculation tools like resistors, capacitors and coils.

Analog and Digital Electronics: Students learn to design, analyze and solve problems related to electronic circuits, both analog and digital. This includes integrated circuit design, amplifiers, meters, microcontrollers, and much more.

Power Electronics: It focuses on the conversion, control, and distribution of electrical energy, including power converters, variable frequency drives, and uninterruptible power supplies (UPS).

Automation and Control: Students learn to design automatic control systems, using methods such as feedback theory, dynamic systems modeling, PID controllers, and real-time control system design.

Electricity and Energy: This course explores the generation, distribution, and management of electrical energy, including power grids, renewable energy, energy storage systems, and energy conservation.

Embedded Systems: It covers the design and programming of embedded systems, often used in applications such as automotive, aerospace, and consumer electronics.

Design Projects: Many programs include design projects where students apply their knowledge to solve real-world problems by designing electrical and electronic systems.

Souhail

5.0

(1)

Electrostatic:
- Coulomb's law
- The electrostatic field
- Electrostatic potential
- Gauss's theorem
- Drivers in balance
- Capacitors
- Electrostatic energy

Magnetostatic:
- Magnetic force (Lorentz force)
- Laplace force
- Law of Biot and Savart
- Magnetic flux
- Ampère's theorem
- The vector potential

Electrokinetics:
- Concept of electric current and electric voltage
- Ohm's law
- generators and receivers
- Kirchhoff's laws (law of meshes, law of knots)
- Millman's theorem
- Superposition theorem
- Thévenin's theorem
- Norton's theorem